The electric potential V as a function of distance X is shown in the figure.

The graph of the magnitude of electric field intensity E as a function of X is

In the following graph , the magnitude of maximum electric field is

The electric potential V is given as a function of distance x (metre) by V = (6x^(2) + 10 x - 9) volt. Find magnitude of electric field (in V/m) at x= 4.

The electric potential V is givne as a function of distance x (metre) by V = (5 x^(2) + 10x - 9) volt. Value of electric field at x = 1 is

The figure gives the electric potential V as a function of distance through five regions on x-axis. Which of the following is true for the electric E in these regions ?

The variation of electric potential with distance from a fixed point is shown in figure. What is the value of electric field at x = 2m -

Gravitational potential V versus distance r graph is represented in the figure. The magnitude of gravitational field intensity is equal to

Electric potential at any point in a region is given as V=5x+3y+sqrt15z In this region the magnitude of the electric field is:

A graph of the x-component of the electric field as a function of x in a region of space is shown in figure. The y- and z-components of the electric field are zero in this region. If the electric potential is 10 V at the origin, then the potential at x = 2.0 m is

If the potential function is define as V = ( - 3 x + 4y + 12 z)V , then magnitude of electric field E( x,y,z) is